CN215056688U - Hollow glass inflation opening sealing device - Google Patents

Abstract

The utility model discloses a trompil sealing device is aerifyd to cavity glass, the device fixed mounting are in cavity glass's transmission band top, include: the conveying belt comprises a fixed seat arranged at the bottom of the conveying belt, an inflating device fixedly arranged on the fixed seat and a glue supply device arranged on the fixed seat; the inflator includes: the transmission device is fixedly arranged at the top of the support frame, and the inflation needle is arranged at the output end of the transmission device; one end of the inflating needle is fixedly inserted with a conical heating nozzle; a gap is arranged between the conical heating nozzle and the inflating needle, and a plurality of through holes are formed in the conical heating nozzle; and a rubber supply pipe is inserted into one side of the conical heating nozzle and is communicated with the rubber supply device. The utility model discloses a toper heating nozzle is in first sealing layer trompil convenient to inflate the needle and gets into and aerify, aerifys the completion back, and the hot melt adhesive flows from toper heating nozzle through-hole and aerifys the hole and advances the repair again, makes the inert gas who fills to keep sealed.

Description

Hollow glass inflation opening sealing device

Technical Field

The utility model belongs to cavity glass manufacture equipment field, especially a cavity glass aerifys trompil sealing device.

Background

The hollow glass is filled with inert gas, so that the index of the heat transfer coefficient of the hollow glass can be effectively reduced, and the effects of heat preservation and cold insulation are further achieved.

Disclosure of Invention

The purpose of the invention is as follows: the utility model provides a cavity glass inflatable hole sealing device to solve the above-mentioned problem that prior art exists.

The technical scheme is as follows: the utility model provides an aerify trompil sealing device of cavity glass, the device fixed mounting includes above the transmission band of cavity glass: the conveying belt comprises a fixed seat arranged at the bottom of the conveying belt, an inflating device fixedly arranged on the fixed seat and a glue supply device arranged on the fixed seat;

the inflator includes: the device comprises a support frame fixedly arranged on a fixed seat, a transmission device fixedly arranged at the top of the support frame, and an inflation needle arranged at the output end of the transmission device; one end of the inflating needle is fixedly inserted with a conical heating nozzle;

a gap is arranged between the conical heating nozzle and the inflating needle, and a plurality of through holes are formed in the conical heating nozzle; and a rubber supply pipe is inserted into one side of the conical heating nozzle and is communicated with the rubber supply device.

In a further embodiment, the inflation needle and the conical heating nozzle are hollow structures; the bottom of the conical heating nozzle is provided with an integrally connected arc-shaped structure; and an arc-shaped port is arranged at the bottom of the arc-shaped structure.

In a further embodiment, the transmission comprises: the lifting mechanism comprises a support plate fixedly arranged on a support frame, a screw rod assembly fixedly arranged on the support frame, a lifting pressure cylinder fixedly arranged on the screw rod assembly, and a piston rod arranged in the lifting pressure cylinder and inserted through a panel of the support frame; one end of the lead screw component is in transmission connection with a driving motor.

In a further embodiment, the inflation needle is fixedly connected with the output end of the piston rod through the connecting seat.

In a further embodiment, the outside of the gas-filled tube is provided with a cooling device; an infrared image detection device is arranged on the support frame.

In a further embodiment, the inflation needle is communicated with an inflation tube, and the other end of the inflation tube is communicated with the inflation valve and is communicated with an inflator.

In a further embodiment, the support frame is further provided with an electric push rod, and the output end of the electric push rod is fixedly connected with the conical heating nozzle.

Has the advantages that: the utility model discloses a toper heating nozzle is convenient for aerify the needle entering and is aerifyd in the first sealing layer trompil when heating refrigerated inert gas, aerifys the completion back, and the hot melt adhesive flows in the toper heating nozzle through-hole and directly repairs the inflation hole of opening in the ascending in-process of toper heating nozzle, makes the inert gas who fills to keep sealed.

Drawings

Fig. 1 is a schematic structural view of the hollow glass inflation hole sealing device of the present invention.

FIG. 2 is an enlarged view of point A in FIG. 1

Fig. 3 is a plan view of the hollow glass inflator of the present invention.

Fig. 4 is a schematic structural view of the conical heating nozzle of the present invention.

The reference signs are: the device comprises a fixed seat 1, an inflation device 2, an inflation needle 20, an inflation tube 21, a first sealing layer 3, a glue supply device 4, a support frame 5, a support plate 50, a transmission device 6, a screw rod assembly 60, a driving motor 61, a lifting cylinder 62, a piston rod 63, a conical heating nozzle 7, a through hole 70, an arc-shaped structure 71, an arc-shaped port 72, a cooling device 8, a glue supply tube 9, an inflation hole 10, a conveying belt 11, an electric push rod 12 and an infrared image detection device 13.

Detailed Description

In the following description, numerous specific details are set forth in order to provide a more thorough understanding of the present invention. It will be apparent, however, to one skilled in the art, that the present invention may be practiced without one or more of these specific details. In other instances, well-known features have not been described in order to avoid obscuring the present invention.

The applicant finds that inert gas is filled in the hollow glass, the index of the heat transfer coefficient of the hollow glass can be effectively reduced, the effects of heat preservation and cold insulation are further achieved, the hollow glass filled with the inert gas needs two sealing layers, the first sealing layer needs to maintain the vacuum state in the hollow glass, the first sealing layer is sealed after inflation is completed, the filled inert gas can be sealed in the gap of the hollow glass, the filled inert gas cannot escape along the inflation hole, but the sealing material or the drying material often drops into the inflation inlet along the inflation hole in the sealing process, and the attractiveness of the interior of the hollow glass is affected.

An apparatus for sealing an air filled aperture in hollow glass as shown in fig. 1 to 4 comprises: the device comprises a fixed seat 1, an inflation device 2, an inflation needle 20, an inflation tube 21, a first sealing layer 3, a glue supply device 4, a support frame 5, a support plate 50, a transmission device 6, a screw rod assembly 60, a driving motor 61, a lifting cylinder 62, a piston rod 63, a conical heating nozzle 7, a through hole 70, an arc-shaped structure 71, an arc-shaped port 72, a cooling device 8, a glue supply tube 9, an inflation hole 10, a conveying belt 11, an electric push rod 12 and an infrared image detection device 13.

Wherein the device fixed mounting includes above cavity glass's transmission band: set up in the conveyer belt 11 bottom: fixing base 1, fixed the setting is at: the aerating device 2 on the fixing seat 1, and set up: a glue supply device 4 on the fixed seat 1;

the inflator 2 includes: the fixed mounting is as follows: the device comprises a support frame 5 on a fixed seat 1, a transmission device 6 fixedly arranged at the top of the support frame 5, and an inflation needle 20 arranged at the output end of the transmission device 6; one end of the inflation needle 20 is fixedly inserted with the conical heating nozzle 7, the inflation needle 20 is communicated with the inflation tube 21, and the other end of the inflation tube 21 is communicated with the inflation valve and the inflator.

The transmission 6 comprises: the lifting mechanism comprises a support plate 50 fixedly arranged on a support frame 5, a screw rod assembly 60 fixedly arranged on the support frame 5, a lifting pressure cylinder 62 fixedly arranged on the screw rod assembly 60, and a piston rod 63 arranged in the lifting pressure cylinder 62 and penetrating through a panel of the support frame 5; one end of the screw assembly 60 is in transmission connection with a driving motor 61, and then the power of the driving motor 61 drives a lifting pressure cylinder 62 to move on the guide rails at the two sides of the screw assembly 60, so that the position of the inflation needle 20 is adjusted according to the thickness of the hollow glass and the position of the inflation inlet.

The inflation needle 20 is fixedly connected with the output end of the piston rod 63 through the connecting seat, and the lifting pressure cylinder 62 drives the piston rod 63 to move and simultaneously drives the inflation needle 20 to move up and down, so that the first sealing layer 3 is pulled out and inserted in the inflation process.

A cooling device 8 is arranged outside the inflation tube 21; the cooling device 8 adopts a winding type condenser sleeved outside the inflation tube 21 by the cooling device 8, so that the inert gas inflated from the inflation can be cooled, and the inflation end of the inflation needle 20 is the cooling gas; the infrared image detection device 13 arranged on the support frame 5 can monitor the cold and hot conditions of the inflating needle 20 in real time, and further judge whether the inert gas in the hollow glass is full of inert gas.

Be equipped with the space between toper heating nozzle 7 and the inflating needle 20, a plurality of through-holes 70 have been seted up on the toper heating nozzle 7, the one side grafting of toper heating nozzle 7 has supply rubber pipe 9, supply rubber pipe 9 and glue supply device 4 intercommunication, and then the colloid in the glue supply device 4 gets into toper heating nozzle 7 through supply rubber pipe 9 and spills over from toper heating nozzle 7 through-hole 70 once more, and electric putter 12 drives toper heating nozzle 7 and rises, and the colloid fuses with the hot melt adhesive of first sealing layer 3, repairs the inflation inlet that originally goes out of melting. The inflating needle 20 and the conical heating nozzle 7 are hollow structures; the conical heating nozzle 7 can be communicated with the inflating needle 20; the bottom of the conical heating nozzle 7 is provided with an integrally connected arc-shaped structure 71; the bottom of the arc-shaped structure 71 is provided with an arc-shaped port 72; the arc-shaped structure 71 and the arc-shaped port 72 are reversely buckled with a plurality of arc-shaped curved air inflation holes 10 in the process of opening the first sealing layer 3, so that the hot melt adhesive led out from the through hole 70 can be buffered and decelerated, the hot melt adhesive can gradually reduce the diameter of the air inflation holes 10, and the phenomenon that the hot melt adhesive with too high flow speed enters the hollow glass along the air inflation holes 10 to cause the appearance of the hollow glass is influenced is avoided.

Still install electric putter 12 on support frame 5, electric putter 12's output and toper heating mouth 7 fixed connection, and then electric putter 12 drives toper heating mouth 7 up-and-down motion, before aerifing electric putter 12 drives toper heating mouth 7 downstream, with toper heating mouth 7 effect on first sealing layer 3, and then rise after hot melt play inflation inlet on first sealing layer 3, aerify and accomplish back electric putter 12 and drive toper heating mouth 7 downstream, the hot melt adhesive supply is in the inflation inlet department of first sealing layer 3, block up to the inflation inlet and make it form sealedly.

The working principle is as follows:

the hollow glass with the first sealing layer 3 is vacuumized and then placed on the conveyer belt 11, and is transferred to the lower part of the inflating device 2 through the conveyer belt 11, and the position of the inflating needle 20 is adjusted according to the thickness of the hollow glass and the position of an inflating opening; the power of the driving motor 61 drives the lifting pressure cylinder 62 to move on the guide rails at two sides of the screw assembly 60, so that the inflating needle 20 corresponds to the first sealing layer 3, the lifting pressure cylinder 62 drives the piston rod 63 to move and simultaneously drives the inflating needle 20 to move up and down, the conical heating nozzle 7 is melted out of the inflating hole 10 in the first sealing layer 3 in the descending process, the inflating needle 20 extends into the inflating hole 10, the inflator is opened, the inert gas enters the hollow glass through the cooling device 8, and the temperature of the inert gas is increased through the conical heating nozzle 7; after the hollow glass is filled with air, the air overflows into the inflating needle 20 from the bottom, when the infrared image detection device 13 detects the overflow condition, the lifting and lowering cylinder 62 drives the piston rod 63 to move upwards, the inflating needle 20 and the conical heating nozzle 7 move upwards, the electric push rod 12 drives the conical heating nozzle 7 to move downwards in the direction opposite to the direction of the inflating needle 20, so that the inflating needle 20 is far away from the conical heating nozzle 7, the electric push rod 12 drives the conical heating nozzle 7 to move downwards before inflation, the conical heating nozzle 7 acts on the first sealing layer 3, then the air is melted out of the inflating opening on the first sealing layer 3 and then rises, after inflation is completed, the electric push rod 12 drives the conical heating nozzle 7 to move downwards, hot melt adhesive is supplemented at the inflating opening of the first sealing layer 3 to block the inflating opening to form sealing, the hot melt adhesive overflows from the conical heating nozzle 7 to the first sealing layer 3 through the plurality of through holes 70 to be combined with the first sealing layer 3, the repair of the inflation holes 10 is further completed to prevent the inert gas inflated from flowing out, the arc-shaped structures 71 and the arc-shaped ports 72 are reversely buckled with the apertures of the inflation holes 10 with a plurality of arc-shaped curves in the process of opening the first sealing layer 3, the hot melt adhesive led out of the through holes 70 can be buffered and decelerated, the apertures of the inflation holes 10 can be gradually reduced by the hot melt adhesive, and the phenomenon that the hot melt adhesive with too high flow speed enters the hollow glass along the inflation holes 10 to affect the appearance is avoided; and after the inflation is finished, the hollow glass is subjected to secondary sealant treatment in time.

The utility model discloses a toper heating mouth 7 opens the hole in first sealing layer 3 when heating refrigerated inert gas and conveniently aerifys needle 20 gets into and aerifys, spill over from aerifing needle 20 after being full of gas in the cavity glass to infrared image detection device 13 detects the gaseous cold and hot distribution condition in aerifing needle 20, and then detects cavity glass in inert gas's the condition of aerifing, avoid cavity glass in inert gas's atmospheric pressure too big destruction sealing layer, and then reach the harmless inflated effect.

The preferred embodiments of the present invention have been described in detail with reference to the accompanying drawings, however, the present invention is not limited to the details of the above embodiments, and the technical concept of the present invention can be modified to perform various equivalent transformations, which all belong to the protection scope of the present invention.

Claims (7)

1. The utility model provides a trompil sealing device is aerifyd to cavity glass which characterized in that, the device fixed mounting include above cavity glass's transmission band: the conveying belt comprises a fixed seat arranged at the bottom of the conveying belt, an inflating device fixedly arranged on the fixed seat and a glue supply device arranged on the fixed seat;

the inflator includes: the device comprises a support frame fixedly arranged on a fixed seat, a transmission device fixedly arranged at the top of the support frame, and an inflation needle arranged at the output end of the transmission device; one end of the inflating needle is fixedly inserted with a conical heating nozzle;

a gap is arranged between the conical heating nozzle and the inflating needle, and a plurality of through holes are formed in the conical heating nozzle; and a rubber supply pipe is inserted into one side of the conical heating nozzle and is communicated with the rubber supply device.

2. The sealing device for an inflation opening of hollow glass as claimed in claim 1, wherein the inflation needle and the tapered heating nozzle are hollow; the bottom of the conical heating nozzle is provided with an integrally connected arc-shaped structure; and an arc-shaped port is arranged at the bottom of the arc-shaped structure.

3. The apparatus of claim 1, wherein said actuator comprises: the lifting mechanism comprises a support plate fixedly arranged on a support frame, a screw rod assembly fixedly arranged on the support frame, a lifting pressure cylinder fixedly arranged on the screw rod assembly, and a piston rod arranged in the lifting pressure cylinder and inserted through a panel of the support frame; one end of the lead screw component is in transmission connection with a driving motor.

4. The sealing device for the inflation opening of hollow glass as claimed in claim 1, wherein the inflation needle is fixedly connected with the output end of the piston rod through a connecting seat.

5. The sealing device for the inflation opening of the hollow glass as claimed in claim 1, wherein the inflation needle is communicated with an inflation tube, and the other end of the inflation tube is communicated with an inflation valve and is communicated with an inflator.

6. The sealing device for an inflation hole of hollow glass as claimed in claim 5, wherein a cooling device is provided outside the inflation tube; an infrared image detection device is arranged on the support frame.

7. The hollow glass inflation opening sealing device according to claim 1, wherein an electric push rod is further mounted on the support frame, and an output end of the electric push rod is fixedly connected with the conical heating nozzle.

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